KR101778454B1 - Forwarded cooling apparatus for coated strip and coating facility - Google Patents

Abstract

The present invention relates to a coated steel plate pre-cooling device, a coated steel plate post-cooling device, and a plating facility including the same, capable of improving a quality of the coated steel plate by raising a cooling speed of the steel plate coated with a plating solution. That is, the present invention comprises: a plating bath provided such that a plating solution passes through a steel plate; a coated steel plate pre-cooling device provided such that the plating solution cools the steel plate, coated on an outer surface thereof, in the plating bath; and a coated steel plate post-cooling device provided after the pre-cooling device on a movement path of the steel plate, and provided to cool again the steel plate having been cooled by the plating steel plate pre-cooling device.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling system for a coated steel plate,

The present invention relates to a plated steel plate preceding cooling apparatus and a plating apparatus including the same.

In the manufacturing process of steel products, continuous plating process is performed to produce coated steel sheet according to customer's needs.

In such a continuous plating process, the molten plating liquid attached to the surface of the steel sheet passing through the plating bath provided with a plating solution such as zinc is cooled to produce a coated steel sheet.

That is, since the steel plate having passed through the plating bath has excess plating liquid adhered to both sides thereof, it is formed into a plating layer having an appropriate thickness by using an air knife, and then the unfused zinc solution of about 460 DEG C or more is cooled And a plating layer having sufficient strength is formed on the surface of the steel sheet by solidification using the apparatus, thereby producing a coated steel sheet.

However, if the cooling of the plating solution does not proceed rapidly, the sequin pattern, which is a crystal growth pattern generated on the surface of the plating layer, can not be miniaturized, thereby causing a problem in the plating quality.

On the other hand, in order to solidify the plating layer, the uncoagulated plating solution is cooled using air such as an air cooler, and the plating layer, which is partially solidified and secured to a certain degree of strength, is cooled by a cooling nozzle Respectively.

The reason why the steel plate coated with the plating solution is cooled by using the air cooler at the initial stage of cooling of the steel plate is as follows. When water droplets of the cooling water are sprayed on the coating layer in an uncoagulated state, a pit mark .

That is, at the initial stage of cooling of the plating layer, air is sprayed to cool the plating layer, thereby preventing occurrence of surface defects on the coated steel sheet.

In addition, the plated layer, which is solidified to some extent by the air cooler and secured to a certain degree of strength, is completely solidified by spraying cooling water from a cooling nozzle. In order to cool the plated layer, the cooling water is attached to the plated layer, However, since only a part of the injected cooling water adheres to the plating layer, there is a problem that the cooling ability is lowered.

As described above, the cooling method using the air at the initial stage of the solidification of the plated layer is slower than the cooling method using the cooling water, and only the cooling water is adhered to the plating layer even in the cooling method by the injection of the cooling water. There arises a problem that a sequin which is a zinc coagulation pattern of the plating layer due to low-speed cooling becomes excessively large.

That is, when the sequins shown in FIG. 7 (a) are formed on the surface of the coated steel sheet, the degree of gloss and the degree of gloss of the plated products are lowered, so that they can not be used for high-grade products such as automobile exterior materials and exterior materials for home appliances.

In addition, when the plating layer that has not sufficiently cooled is brought into contact with the transfer roll, a part of the plating liquid adheres to the roll, thereby generating a pick-up mark in the width direction on the surface of the steel sheet, There is also a problem that becomes a factor.

In addition, according to the low-speed cooling of the plating layer, it is necessary to secure a sufficient cooling time of the coated steel sheet in the equipment for continuously producing the coated steel sheet, and as a result, the length of the cooling line becomes longer.

An object of the present invention is to improve the quality of a coated steel sheet by increasing the cooling rate of the coated layer on the steel sheet and to provide a plating steel sheet preceding cooling apparatus and a plating facility including the same,

The plated steel plate preceding cooling apparatus according to an embodiment of the present invention includes a preceding body unit provided on a movement path of a steel plate coated with an uncoated plating solution on the outer surface thereof, And an ultrasonic unit which is provided in the spraying unit and the preceding body unit and which forms cooling water as mist and injects the air sprayed from the air spraying unit onto the steel plate.

Further, the ultrasonic unit of the plated steel plate preceding cooling apparatus according to an embodiment of the present invention may include a preceding container unit provided in the preceding body unit and provided with cooling water, an ultrasonic unit provided in the preceding container unit, An ultrasonic wave generating unit for generating the cooling water by mist, and a mist guide unit provided on the upper side of the preceding container unit for guiding the mist to a position where the steel plate is provided.

Further, the air injection unit of the plated steel plate preceding cooling apparatus according to an embodiment of the present invention may include an air supply unit that is provided in the preceding body unit and receives air from the outside to spray the steel plate, and an air supply unit And a temperature control unit for controlling the temperature of the air.

Also, the air injection unit of the plated steel plate preceding cooling apparatus according to an embodiment of the present invention may include an air amount adjusting unit provided in the air supplying unit and provided to adjust the flow rate of air delivered from the outside.

The preceding body unit of the plated steel plate preceding cooling apparatus according to an embodiment of the present invention is provided on a front frame portion provided on a moving path of the steel sheet and a front end portion of the preceding frame portion facing the steel sheet, And a slit nozzle unit provided at a width greater than at least the width of the steel plate so as to jet the air provided by the air injection unit and the mist provided by the ultrasonic unit to the steel plate.

Further, the preceding body unit of the plated steel plate preceding cooling apparatus according to an embodiment of the present invention may include a preceding air curtain unit provided at the periphery of the slit nozzle unit and guiding the air to be sprayed and the mist to the steel plate have.

The plated steel plate preceding cooling apparatus according to an embodiment of the present invention may include a filter unit provided in the preceding body unit and adapted to adjust the size of fog particles to be sprayed on the steel plate.

Further, the filter unit of the plated steel plate preceding cooling apparatus according to an embodiment of the present invention is provided on the flow path of the mist formed in the ultrasonic wave unit, and includes a filter frame unit coupled to the preceding body unit, The flow path of some of the mist particles may be provided for changing and the remaining mist particles may include a throttle plate provided to be collided by a mobile inertia force.

In addition, a plurality of the regulating plate portions of the plated steel plate preceding cooling apparatus according to an embodiment of the present invention may be provided at a predetermined interval in the filter frame portion.

Further, the throttle plate of the plated steel plate preceding cooling apparatus according to an embodiment of the present invention may be provided obliquely to the flow path of the mist particles.

According to another aspect of the present invention, there is provided a plating apparatus comprising: a plating tank having a plating solution passed through a steel plate; a plating apparatus for precoating the plating steel plate with the plating solution to cool the steel plate coated on the outer surface thereof; And a plated steel plate following cooling device provided downstream of the movement path of the steel plate than the preceding cooling device and provided to cool the steel plate cooled by the plated steel plate preceding cooling device.

Advantageous Effects of the Invention The plating steel plate preceding cooling apparatus of the present invention and the plating facility including the same have the advantage that the quality of the coated steel sheet can be improved by increasing the cooling rate of the plating layer coated on the steel sheet.

Particularly, by spraying fine water particles formed by using ultrasonic waves at the time of cooling by the air at the initial stage of cooling of the steel plate coated with the plating solution, it is possible to prevent the formation of indented pit marks in the non-solidified plated layer, There is an effect that can be increased.

In addition, when the filter unit is provided, the size of the mist particles to be injected into the plating layer can be adjusted by using the difference in the mobile inertia force depending on the size of the mist particles formed by the ultrasonic unit, It is possible to have an effect that can be increased.

1 is a front view showing a plating facility of the present invention.
Fig. 2 is a front view showing the plating apparatus according to the present invention.
3 is a front view showing an embodiment in which the temperature control unit of the air injection unit is provided outside the air supply unit in the plated steel plate preceding cooling apparatus of the present invention.
FIG. 4 is a perspective view showing the plating apparatus according to the present invention. FIG.
Fig. 5 is a front view showing an embodiment in which the preceding body unit includes the preceding air curtain in the plated steel plate preceding cooling apparatus of the present invention. Fig.
6 is a front view showing an operating state of the filter unit in the plated steel plate preceding cooling apparatus of the present invention.
7 is a photograph showing a state in which a sequin pattern is coarsened at the time of cooling the plating layer according to the prior art and a state in which the sequin pattern is made fine at the time of cooling the plating layer according to the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a plated steel plate preceding cooling apparatus 100, a plated steel plate post cooling apparatus 200, and a plating apparatus including the same, wherein the cooling rate of the plated layer applied to the steel plate S is increased, Not only the quality can be improved, but also the size of the facility can be prevented.

7 (a) is a photograph showing a state in which a sequin pattern is coarsened when a plating layer is cooled by a conventional technique, and FIG. 7 (b) ) Is a photograph showing a state in which a sequin pattern has become finer at the time of cooling the plating layer by the present invention.

The plating apparatus according to the present invention includes a plating tank 300 in which a steel sheet S passes through a plating solution L, a steel sheet S coated on the outer surface of the plating solution L in the plating tank 300, (S) provided downstream of the movement path of the steel plate (S) and cooled by the steel plate preceding cooling apparatus (100), wherein the steel plate preceding cooling apparatus (100) (Hereinafter, referred to as " plated steel plate post-cooling device ").

Such a plating steel plate preceding cooling apparatus 100 and the coated steel plate following cooling apparatus 200 can improve the cooling rate for the steel sheet S coated with the plating solution L, The sequin pattern that can be formed in the solution L can be made finer.

In other words, as shown in Fig. 7 (b), compared to the case where the cooling rate is not ensured in the conventional manner as shown in Fig. 7 (a), the present invention can provide a cooling rate capable of finely dividing the sequin pattern It is.

The plated steel plate preceding cooling apparatus 100 is an apparatus for cooling the steel plate S coated with the plating solution L at an initial stage in which the steel plate S is discharged from the plating vessel 300, Cooling is performed.

The plated steel plate following cooling apparatus 200 is a device for cooling the plated layer of the partially coagulated steel sheet S cooled by the plated steel plate preceding cooling apparatus 100 to finish the cooling of the plated layer do.

To this end, the plated steel plate following cooling apparatus 200 is positioned behind the moving path of the steel plate S from the plated steel plate preceding cooling apparatus 100. That is, the steel plate S is discharged from the plating tank 300, passes through the plated steel plate preceding cooling apparatus 100 firstly, and then passes through the plated steel plate following cooling apparatus 200 secondarily .

In the case of the plating vessel 300, the plating solution L is applied to the steel sheet S. To this end, the plating tank 300 is provided with a plating solution L such as a molten zinc solution, and a pot roll 400 for guiding the movement of the steel sheet S may be provided.

An air knife 500 is provided at a position between the plating bath 300 and the plated steel plate preceding cooling apparatus 100 to adjust the thickness of the plating solution L applied to the plating bath 300 Lt; / RTI >

Particularly, the plated steel plate preceding cooling apparatus 100 injects fine moisture particles formed using ultrasonic waves together when cooling the steel sheet S coated with the plating solution L by air (A) , It is possible to prevent the formation of a recessed pit mark in the non-solidified plated layer and to improve the cooling ability. The description thereof will be described later in detail with reference to FIG. 2 to FIG.

In addition, when the plated steel plate preceding cooling apparatus 100 includes the filter unit 140, the difference in the mobile inertia force depending on the size of the mist particles formed by the ultrasonic unit 130 can be used, The size of the particles can be adjusted, and the efficiency of preventing the formation of the pit marks can be further enhanced. This will be described in detail later with reference to FIG.

FIG. 2 is a front view of a plating apparatus according to an embodiment of the present invention. FIG. 2 is a front view illustrating a plating apparatus according to an embodiment of the present invention. Referring to FIG. 2, A preceding body unit 110 provided on the movement path of the steel plate S wound on the steel plate S and an air injection unit 120 provided on the preceding body unit 110 and spraying air A onto the steel plate S, And an ultrasonic unit 130 which is provided in the preceding body unit 110 and injects cooling water into the steel plate S along the air A injected from the air injection unit 120 by forming mist .

That is to say, the plating steel plate preceding cooling apparatus 100 according to the present invention simultaneously injects the cooling water mist formed by the ultrasonic unit 130, thereby preventing the non-coagulating plating solution L from leaking out during the cooling of the plating solution L by the air A. [ So that it is possible to prevent the formation of the recessed pit marks and to improve the cooling performance.

Here, the preceding body unit 110 serves as a body provided with the air injection unit 120 and the ultrasonic unit 130. In addition, the cooling water mist provided by the ultrasonic unit 130 and the air A provided by the air injection unit 120 are sprayed together with the plating solution L on the steel plate S coated with the plating solution L. For this purpose, the preceding body unit 110 may include a leading frame part 111, a slit nozzle part 112, and a leading air curtain part 113, which will be described in detail with reference to FIGS. 4 and 5 Will be described later.

The preceding body unit 110 is installed in the plating vessel 300 so that the plating unit 300 can cool the steel plate S discharged from the plating vessel 300 Is provided on the movement path of the steel sheet S on which the non-solidified plating solution L is coated.

The air injection unit 120 serves to spray the air A to cool the non-solidified plating solution L on the steel sheet S. For this purpose, the air injection unit 120 may include an air supply unit 121, and may be a temperature control unit that can adjust the temperature of the air A to a low temperature or a high temperature in order to increase the cooling efficiency by injection of air (A) (122), which will be described later in detail with reference to FIG.

The ultrasonic unit 130 serves to provide a cooling water mist to the air A to increase the cooling ability of the air A injected from the air injection unit 120.

Here, the ultrasonic unit 130 forms the cooling water by the ultrasonic vibration, and the thus formed mist is introduced into the slit of the preceding body unit 110 together with the air A supplied from the air injection unit 120 And is supplied to the nozzle unit 112 to be sprayed to the plating solution L deposited on the steel plate S.

For this purpose, the ultrasonic unit 130 may include a leading container unit 131, an ultrasonic wave generator 132, and a mist guide unit 133.

In other words, the ultrasonic unit 130 of the plated steel plate preceding cooling apparatus 100 according to an embodiment of the present invention includes a preceding container unit 131 provided in the preceding body unit 110 and provided with cooling water, An ultrasonic wave generator 132 provided in the leading vessel 131 for generating ultrasonic waves by vibrations to form the cooling water as a mist; and a mist provided on the upper side of the preceding vessel 131, And a mist guide portion 133 for guiding the steel sheet S to a position where the steel sheet S is provided.

The leading vessel unit 131 is provided with the cooling water to be formed as mist when the ultrasonic wave generator 132 generates vibration. The leading vessel unit 131 is provided in the preceding body unit 110.

The pipeline to be supplied with the cooling water W from the outside may be connected to the leading vessel unit 131.

The ultrasonic wave generator 132 serves to form an ultrasonic vibration for forming the cooling water as a mist, and is provided inside the preceding container 131 provided with the cooling water.

The ultrasonic wave generator 132 is formed of a material such as metal, quartz, or ceramics, which is electrically connected to a voltage source and converts electric energy supplied from a voltage source to vibration energy to form ultrasonic vibrations.

When the cooling water supplied to the lead vessel 131 is formed into a mist by the ultrasonic vibration provided by the ultrasonic wave generator 132, the mist guide part 133 flows to the slit nozzle part 112 And the role of the guide.

The fog guide part 133 is formed in the shape of a cap at the upper end of the leading container part 131 and is formed in a direction toward the slit nozzle part 112, A flange extending toward the slit nozzle portion 112 is formed.

In particular, a filter unit 140, which will be described later, is provided between the fog guide unit 133 and the slit nozzle unit 112 to adjust the size of the fog particles. The fog particles provided to the slit nozzle unit 112 As shown in FIG.

3 is a front view showing an embodiment in which the temperature regulation unit 122 of the air injection unit 120 is provided outside the air supply unit 121 in the plated steel plate preceding cooling apparatus 100 of the present invention, The air injection unit 120 of the plated steel plate preceding cooling apparatus 100 according to an embodiment of the present invention is provided in the preceding body unit 110 and receives the air A from the outside, And a temperature control unit 122 provided in the air supply unit 121 and adapted to control the temperature of the air A. [

That is, the air temperature adjusting unit 122 may include a temperature control unit 122 that can adjust the temperature of the air A to a low temperature or a high temperature in order to increase the cooling efficiency by the air (A) injection.

The air supply unit 121 serves to supply the air A to the slit nozzle unit 112 and the air supply unit 121 can receive the high pressure air A from the outside. For this purpose, the air supply unit 121 may be connected with a pipe to receive the air A.

The air temperature regulator 122 controls the temperature of the air A supplied from the air supply unit 121 and is provided as a cooling tube for forming the air A at a low temperature .

The temperature control unit 122 is provided inside the air supply unit 121 to directly contact the air A provided by the air supply unit 121 to increase the temperature control efficiency of the air A. [ An example of this is shown in Fig.

In this case, since the flow path of air (A) flowing in the air supply unit 121 is not blocked, the temperature control unit 122 may be provided outside the air supply unit 121, The flow rate of the air A can be maintained. An example of this is shown in FIG.

In addition, the air injection unit 120 may further include an air amount adjusting unit 123 to adjust the amount of air to be transferred from the outside to the air supplying unit 121.

That is, the air injection unit 120 of the plated steel plate preceding cooling apparatus 100 according to an embodiment of the present invention is provided in the air supply unit 121 and is provided to regulate the flow rate of air delivered from outside And an air amount adjusting unit 123.

The provision of the air amount control unit 123 can control the amount of air injected from the slit nozzle unit 112 of the preceding body unit 110 to the steel plate S, 130 in order to cool the plating solution of the steel sheet S to a desired temperature by adjusting the cooling capability to be set.

FIG. 4 is a perspective view illustrating a plated steel plate preceding cooling apparatus 100 according to the present invention. Referring to FIG. 4, the preceding body unit 110 of the plated steel plate preceding cooling apparatus 100 according to an embodiment of the present invention, A front frame part 111 provided on the movement path of the steel strip S and a front frame part 111 facing the steel strip S, And a slit nozzle portion 112 provided at a width at least greater than the width of the steel sheet S so as to jet the air A supplied from the ultrasonic unit 130 to the steel sheet S, have.

The reason why the preceding body unit 110 includes the leading frame unit 111 and the slit nozzle unit 112 is that the air A supplied from the air injection unit 120 and the air supplied from the ultrasonic unit 130 And serves to spray the cooling water mist provided together with the steel sheet S on which the plating solution L is coated.

The preceding frame part 111 is a basic structure in which the air injection unit 120 and the ultrasonic unit 130 are provided and the slit nozzle part 112 is composed of the air A and the fogged plating solution L As shown in FIG.

The slit nozzle unit 112 is formed in a long hole shape having a width larger than the width of the steel sheet S so as to uniformly spray the air A and the mist particles in the width direction of the steel sheet S, And is configured to uniformly perform cooling for the solidification plating solution (L).

5 is a front view showing an embodiment in which the preceding body unit 110 in the plated steel plate preceding cooling apparatus 100 of the present invention includes the preceding air curtain 113. Referring to FIG. 5, The preceding body unit 110 of the plated steel plate preceding cooling apparatus 100 according to the present invention is provided at a peripheral portion of the slit nozzle unit 112 and guides the air A and mist to be sprayed to the steel plate S And a leading air curtain portion 113 for supplying air to the air curtain.

The reason why the preceding body unit 110 includes the preceding air curtain unit 113 is that the air A provided by the air injection unit 120 and the cooling water mist provided by the ultrasonic unit 130 are mixed with each other, This is for controlling the position to be sprayed when the plating solution L is applied to the steel sheet S.

For this, the preceding air curtain 113 may be provided at a peripheral portion of the slit nozzle portion 112, and may be provided to surround the peripheral portion of the slit nozzle portion 112.

In order to form the air curtain, the preceding air curtain 113 may be provided with a pipe to which air A is supplied from the outside. In this way, It is possible to control the path of the fog particles and the air A injected from the slit nozzle portion 112 by spraying the fog particles from the peripheral portion.

6 is a front view showing an operating state of the filter unit 140 in the plated steel plate preceding cooling apparatus 100 of the present invention. Referring to FIG. 6, the plated steel plate preceding cooling apparatus 100 according to an embodiment of the present invention And a filter unit 140 provided in the preceding body unit 110 for adjusting the size of fog particles to be sprayed on the steel sheet S. [

In other words, the filter unit 140 can adjust the size of mist particles to be injected into the plating layer by using the difference of the mobile inertia force according to the size of the mist particles formed by the ultrasonic unit 130.

For this purpose, the filter unit 140 may include a filter frame 141 and a regulating plate 142. That is, the filter unit 140 of the plated steel plate preceding cooling apparatus 100 according to the embodiment of the present invention is provided on the flow path of mist formed in the ultrasonic unit 130, and the preceding body unit 110 A filter frame part 141 provided in the filter frame part 141 coupled to the filter frame part 141, and a flow path of a part of the mist particles is provided to change the remaining mist particles, 142).

Here, the filter frame unit 141 is a basic frame of the filter unit 140 and is provided in the preceding body unit 110. More specifically, the filter frame unit 141 is provided with the mist guide (133) and the slit nozzle part (112).

The regulating plate portion 142 is provided in the filter frame portion 141 to partially change the flow path of mist particles flowing through the filter frame portion 141. In other words, if the throttle plate 142 is configured to partially change the flow path of the mist particles, the particles be relatively large in the inertia force of the mist particles may not change the flow path, Only the path is changed, thereby causing the control plate portion 142 to collide.

As a result, the collided particles be can not move to the slit nozzle part 112, and the particle size becomes larger as the toner is accumulated in the regulating plate part 142, and falls into the leading container part 131.

On the other hand, among the mist particles that have been flowing, the particles se having relatively small inertia force do not collide with the regulating plate portion 142 as they move and change the flow path enough to not collide with the regulating plate portion 142, So that it can be moved to the slit nozzle portion 112.

On the other hand, since the inertia force is proportional to the mass of the particles, the size of the mist particles to be provided to the slit nozzle unit 112 can be adjusted.

For this, a plurality of the regulating plate portions 142 may be provided in the filter frame portion 141 at regular intervals.

That is, a plurality of the regulating plate portions 142 of the plated steel plate preceding cooling apparatus 100 according to an embodiment of the present invention may be provided in the filter frame portion 141 at regular intervals.

With such a configuration, the fog particles guided and guided by the mist guide portion 133 can be efficiently filtered.

The regulating plate portion 142 of the plated steel plate preceding cooling apparatus 100 according to an embodiment of the present invention may be provided obliquely to the flow path of the mist particles.

The reason why the throttle plate is obliquely provided in the flow path of the mist particles is to adjust the degree of change of the flow path of the mist particles.

In other words, if the degree of tilting of the throttle plate is large, the rate of change of the flow path of the fog particles becomes larger, so that only relatively small particles pass through and are supplied to the slit nozzle unit 112. If the degree of tilting is small, Since the rate of change of the flow path of the particles is small, it can be controlled to be supplied to the slit nozzle portion 112 through relatively large particles.

In order to change the degree of tilting of the throttle plate, the degree of tilting may be replaced with another filter unit 140, but the tilting degree may be replaced by an angle adjusting motor or the like to adjust the angle of the throttle plate.

100: Plated steel plate preceding cooling apparatus 110: Lead body unit
111: leading frame portion 112: slit nozzle portion
113: preceding air curtain section 120: air injection unit
121: air supply unit 122: temperature control unit
123: air volume regulator 130: ultrasonic unit
131: lead vessel part 132: ultrasonic wave generator part
133: mist guide part 140: filter unit
141: filter frame part 142:
200: Plated steel plate after cooling apparatus 300: Plating tank
400: Port roll 500: Air knife

Claims (11)

A preceding body unit provided on a moving path of a steel sheet coated with an uncoated plating solution on an outer surface thereof;
An air injection unit provided in the preceding body unit for spraying air to the steel plate;
An ultrasonic unit provided in the preceding body unit and configured to form cooling water as a mist, and to jet the air injected from the air injection unit to the steel plate; And
A filter unit provided in the preceding body unit for adjusting the size of fog particles to be sprayed on the steel plate;
/ RTI >
The filter unit includes:
A filter frame provided on the flow path of the mist formed in the ultrasonic unit and provided to be coupled to the preceding body unit; And
A regulating plate provided in the filter frame part, wherein the flow path of some of the mist particles is provided for changing and the remaining mist particles are provided in a collision by a mobile inertia force;
And a second cooling unit for cooling the plated steel plate. The method according to claim 1,
The ultrasonic unit includes:
A preceding container unit provided in the preceding body unit and provided with cooling water;
An ultrasonic generator provided in the preceding container unit to generate ultrasonic waves due to vibration to form the cooling water as a mist; And
A fog guide provided at an upper side of the preceding container portion and guiding a formed mist to a position where the steel plate is provided;
And a second cooling unit for cooling the plated steel plate. The method according to claim 1,
The air injection unit includes:
An air supply unit provided in the preceding body unit and configured to receive air from the outside and to inject the air into the steel plate; And
A temperature control unit provided in the air supply unit and provided to control the temperature of the air;
And a second cooling unit for cooling the plated steel plate. The method of claim 3,
The air injection unit includes:
An air amount adjusting unit provided in the air supply unit and provided to adjust a flow rate of air delivered from the outside;
And a second cooling unit for cooling the plated steel plate. The method according to claim 1,
Wherein the preceding body unit comprises:
A leading frame part provided on a moving path of the steel plate; And
A slit provided at a front end of the preceding frame portion facing the steel plate and provided with a width larger than the width of the steel plate so as to spray the air provided by the air injection unit and the mist provided by the ultrasonic unit to the steel plate, A nozzle unit;
And a second cooling unit for cooling the plated steel plate. 6. The method of claim 5,
Wherein the preceding body unit comprises:
A preceding air curtain provided at a periphery of the slit nozzle unit and guiding the air and the mist to be sprayed to the steel plate;
And a second cooling unit for cooling the plated steel plate. delete delete The method according to claim 1,
Wherein a plurality of the adjusting plate portions are provided at a predetermined interval in the filter frame portion. 10. The method of claim 9,
Wherein the throttle plate is provided obliquely to the flow path of the mist particles. A plating tank through which a steel sheet passes through a plating solution;
The plating steel plate preceding cooling apparatus according to any one of claims 1 to 6, 9, and 10, wherein the plating solution is provided to cool the steel sheet coated on the outer surface in the plating tank. And
A rear plate cooling plate provided downstream of the movement path of the steel plate ahead of the preceding cooling plate and cooling the steel plate cooled by the steel plate pre-cooling unit;
≪ / RTI >

Images